3: The Importance of Our Moon

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Such discoveries are what make astronomy such an exciting field for scientists and many others—but you will explore much more than just the objects in our universe and the latest discoveries about them. We will pay equal attention to the process by which we have come to understand the realms beyond Earth and the tools we use to increase that understanding. We gather information about the cosmos from the messages the universe sends our way. Because the stars are the fundamental building blocks of the universe, decoding the message of starlight has been a central challenge and triumph of modern astronomy. By the time you have finished reading this text, you will know a bit about how to read that message and how to understand what it is telling us.

3.1: The Sun and the Moon
This page discusses the movement of the Sun, Moon, and planets along the Ecliptic on the Celestial Sphere and introduces the Zodiac, consisting of 12 constellations plus one additional. It explains that astronomers measure sizes and distances in angular measurements, noting that the Sun and Moon appear to span approximately ½ degree or 30 arcminutes from Earth's view, despite their actual sizes being different.
3.2: Eclipses of the Sun and Moon
The Sun and Moon have nearly the same angular size (about 1/2°). A solar eclipse occurs when the Moon moves between the Sun and Earth, casting its shadow on a part of Earth’s surface. If the eclipse is total, the light from the bright disk of the Sun is completely blocked, and the solar atmosphere (the corona) comes into view. Solar eclipses take place rarely in any one location, but they are among the most spectacular sights in nature. A lunar eclipse takes place when the Moon moves into Earth’
3.3: Phases and Motions of the Moon
The Moon’s monthly cycle of phases results from the changing angle of its illumination by the Sun. The full moon is visible in the sky only during the night; other phases are visible during the day as well. Because its period of revolution is the same as its period of rotation, the Moon always keeps the same face toward Earth.
3.4: Ocean Tides and the Moon
The twice-daily ocean tides are primarily the result of the Moon’s differential force on the material of Earth’s crust and ocean. These tidal forces cause ocean water to flow into two tidal bulges on opposite sides of Earth; each day, Earth rotates through these bulges. Actual ocean tides are complicated by the additional effects of the Sun and by the shape of the coasts and ocean basins.
3.5: Key Terms
3.6: Summary
3.7: Exercises

Thumbnail: A photograph of galaxy NGC 6744, which might resemble the Milky Way. (CC BY-SA 3.0; http://www.eso.org/public/images/eso1118a/)

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